Systems and methods for providing responses from media content

ABSTRACT

A method includes retrieving a plurality of transcripts from a database. Each transcript in the plurality of transcripts corresponds to audio from a media content item of a plurality of media content items that are provided by a media providing service. The method also includes applying each transcript of the plurality of transcripts to a trained computational model, and receiving a user request for information regarding a topic. The method further includes, in response to the user request, identifying a transcript from the database that is relevant to the topic, and a position within the transcript that is relevant to the topic. The method also includes providing, by the media providing service, at least a portion of a media content item corresponding to the identified transcript, beginning at a starting position that is based on the position within the identified transcript that is relevant to the topic.

TECHNICAL FIELD

The disclosed embodiments relate generally to providing relevant mediacontent items, and, in particular, to providing a media content item forplayback beginning at a time that provides a relevant answer to a userrequest for information.

BACKGROUND

Access to electronic media, such as music and video content, hasexpanded dramatically over time. As a departure from physical media,media content providers stream media to electronic devices acrosswireless networks, improving the convenience with which users can digestand experience such content. As more people access media content itemsusing media content providers, there is an opportunity to providerelevant portions of media content items as responses to user requestsfor information.

SUMMARY

There is a need for systems and methods to provide relevant responses touser requests for information. Conventionally, such systems may performa search of information available on the internet and provide links ortext from the search results that may be relevant to the user's request.However, such responses face the shortcoming of providing information ina generic manner, such as reciting text that is a top search result, orproviding links that the user must interact with in order to find theanswer to his or her inquiry.

Some embodiments described herein offer a technical improvement byproviding responses from audio files (e.g., podcasts) of real people whoare knowledgeable in the topic of interest. To do so, the systems andmethods described herein use a trained computational model to identify atranscript of a media content item that includes information that isrelevant to a user's inquiry, and to identify a position in thetranscript that includes the relevant information. The systems andmethods then provide playback of the media content item beginning at theposition of the relevant information. Thus, users are provided with anaudio response that is relevant to their inquiry. In many cases, theaudio response is provided by an expert in a field that is related tothe topic of their inquiry.

Some embodiments described herein are particularly well-suited toopen-ended requests for information, such as “Tell me about the life ofa Blue Whale.” In this manner, the embodiments described herein promotea “conversational” feel in which users can ask questions and getnarrative answers (e.g., from podcasts), almost as if the user wereasking the questions of the experts directly. To that end, in someembodiments, the user inquiries comprise requests for perspectives oropinions.

To that end, in accordance with some embodiments, a method is performedat an electronic device that is associated with a media-providingservice. The electronic device has one or more processors and memorystoring instructions for execution by the one or more processors. Themethod includes retrieving a plurality of transcripts from a database.Each transcript in the plurality of transcripts corresponds to audiofrom a media content item of a plurality of media content items that areprovided by a media providing service. The method also includes applyingeach transcript of the plurality of transcripts to a trainedcomputational model, and receiving a user request for informationregarding a topic. The user request includes a string of words. Themethod further includes, in response to the user request, identifying,by applying the string of words to the trained computational model, atranscript from the database that is relevant to the topic, and aposition within the transcript that is relevant to the topic. The methodalso includes providing, by the media providing service, at least aportion of a media content item corresponding to the identifiedtranscript, beginning at a starting position that is based on theposition within the identified transcript that is relevant to the topic.

In accordance with some embodiments, a computer system that isassociated with a media-providing service includes one or moreprocessors and memory storing one or more programs configured to beexecuted by the one or more processors. The one or more programs includeinstructions for retrieving a plurality of transcripts from a database.Each transcript in the plurality of transcripts corresponds to audiofrom a media content item of a plurality of media content items that areprovided by a media providing service. The one or more programs furtherinclude instructions for applying each transcript of the plurality oftranscripts to a trained computational model, and receiving a userrequest for information regarding a topic. The user request includes astring of words. The one or more programs also include instructions for,in response to the user request, identifying, by applying the string ofwords to the trained computational model, a transcript from the databasethat is relevant to the topic, and a position within the transcript thatis relevant to the topic. The one or more programs further includeinstructions for providing, by the media providing service, at least aportion of a media content item corresponding to the identifiedtranscript, beginning at a starting position that is based on theposition within the identified transcript that is relevant to the topic.

In accordance with some embodiments, a computer-readable storage mediumhas stored therein instructions that, when executed by a server systemthat is associated with a media-providing service, cause the serversystem to retrieve a plurality of transcripts from a database. Eachtranscript in the plurality of transcripts corresponds to audio from amedia content item of a plurality of media content items that areprovided by a media providing service. The instructions also cause theserver system to apply each transcript of the plurality of transcriptsto a trained computational model, and receive a user request forinformation regarding a topic. The user request includes a string ofwords. The instructions further cause the server system to, in responseto the user request, identify, by applying the string of words to thetrained computational model, a transcript from the database that isrelevant to the topic, and a position within the transcript that isrelevant to the topic. The instructions also cause the server system toprovide, by the media providing service, at least a portion of a mediacontent item corresponding to the identified transcript, beginning at astarting position that is based on the position within the identifiedtranscript that is relevant to the topic.

Thus, systems are provided with improved methods for providing relevantmedia content items as responses to user requests for information.

BRIEF DESCRIPTION OF THE DRAWINGS

The embodiments disclosed herein are illustrated by way of example, andnot by way of limitation, in the figures of the accompanying drawings.Like reference numerals refer to corresponding parts throughout thedrawings and specification.

FIG. 1A is a block diagram illustrating a media content delivery system,in accordance with some embodiments.

FIG. 1B illustrates providing a media content item in response to a userrequest for information, in accordance with some embodiments.

FIG. 2 is a block diagram illustrating a client device, in accordancewith some embodiments.

FIG. 3 is a block diagram illustrating a media content server, inaccordance with some embodiments.

FIG. 4A illustrates how media content items are selected for provisionin response to user requests for information, in accordance with someembodiments.

FIG. 4B illustrates processing user requests for information, inaccordance with some embodiments.

FIG. 4C illustrates processing transcripts for provision to a trainedcomputational model, in accordance with some embodiments.

FIG. 5A illustrates training the computational model, in accordance withsome embodiments.

FIG. 5B illustrates outputs from a computational model during testingand training, in accordance with some embodiments.

FIGS. 6A-6C are flow diagrams illustrating a method of providingplayback of media content items in response to user requests forinformation, in accordance with some embodiments.

DETAILED DESCRIPTION

Reference will now be made to embodiments, examples of which areillustrated in the accompanying drawings. In the following description,numerous specific details are set forth in order to provide anunderstanding of the various described embodiments. However, it will beapparent to one of ordinary skill in the art that the various describedembodiments may be practiced without these specific details. In otherinstances, well-known methods, procedures, components, circuits, andnetworks have not been described in detail so as not to unnecessarilyobscure aspects of the embodiments.

It will also be understood that, although the terms first, second, etc.are, in some instances, used herein to describe various elements, theseelements should not be limited by these terms. These terms are used onlyto distinguish one element from another. For example, a first set ofparameters could be termed a second set of parameters, and, similarly, asecond set of parameters could be termed a first set of parameters,without departing from the scope of the various described embodiments.The first set of parameters and the second set of parameters are bothsets of parameters, but they are not the same set of parameters.

The terminology used in the description of the various embodimentsdescribed herein is for the purpose of describing particular embodimentsonly and is not intended to be limiting. As used in the description ofthe various described embodiments and the appended claims, the singularforms “a,” “an,” and “the” are intended to include the plural forms aswell, unless the context clearly indicates otherwise. It will also beunderstood that the term “and/or” as used herein refers to andencompasses any and all possible combinations of one or more of theassociated listed items. It will be further understood that the terms“includes,” “including,” “comprises,” and/or “comprising,” when used inthis specification, specify the presence of stated features, integers,steps, operations, elements, and/or components, but do not preclude thepresence or addition of one or more other features, integers, steps,operations, elements, components, and/or groups thereof.

As used herein, the term “if” is, optionally, construed to mean “when”or “upon” or “in response to determining” or “in response to detecting”or “in accordance with a determination that,” depending on the context.Similarly, the phrase “if it is determined” or “if [a stated conditionor event] is detected” is, optionally, construed to mean “upondetermining” or “in response to determining” or “upon detecting [thestated condition or event]” or “in response to detecting [the statedcondition or event]” or “in accordance with a determination that [astated condition or event] is detected,” depending on the context.

FIG. 1A is a block diagram illustrating a media content delivery system,in accordance with some embodiments. The media content delivery system100 includes one or more electronic devices 102 (e.g., electronic device102-1 to electronic device 102-s, where s is an integer greater thanone), one or more media content servers 104, and/or one or more contentdelivery networks (CDNs) 106. The one or more media content servers 104are associated with (e.g., at least partially compose) a media-providingservice. The one or more CDNs 106 store and/or provide one or morecontent items (e.g., to electronic devices 102). In some embodiments,the one or more CDNs 106 are associated with the media-providingservice. In some embodiments, the CDNs 106 are included in the mediacontent servers 104. One or more networks 112 communicably couple thecomponents of the media content delivery system 100. In someembodiments, the one or more networks 112 include public communicationnetworks, private communication networks, or a combination of bothpublic and private communication networks. For example, the one or morenetworks 112 can be any network (or combination of networks) such as theInternet, other wide area networks (WAN), local area networks (LAN),virtual private networks (VPN), metropolitan area networks (MAN),peer-to-peer networks, and/or ad-hoc connections.

In some embodiments, an electronic device 102 is associated with one ormore users. In some embodiments, an electronic device 102 is a personalcomputer, mobile electronic device, wearable computing device, laptopcomputer, tablet computer, mobile phone, feature phone, smart phone,digital media player, a speaker, television (TV), digital versatile disk(DVD) player, and/or any other electronic device capable of presentingmedia content (e.g., controlling playback of media items, such as musictracks, videos, etc.). Electronic devices 102 may connect to each otherwirelessly and/or through a wired connection (e.g., directly through aninterface, such as an HDMI interface). In some embodiments, anelectronic device 102 is a headless client. In some embodiments,electronic devices 102-1 and 102-s are the same type of device (e.g.,electronic device 102-1 and electronic device 102-s are both speakers).Alternatively, electronic device 102-1 and electronic device 102-sinclude two or more different types of devices.

In some embodiments, electronic devices 102-1 and 102-s send and receivemedia-control information through network(s) 112. For example,electronic devices 102-1 and 102-s send media control requests (e.g.,requests to play music, movies, videos, or other media items, orplaylists thereof) to media content server 104 through network(s) 112.Additionally, electronic devices 102-1 and 102-s, in some embodiments,also send indications of media content items to media content server 104through network(s) 112. In some embodiments, the media content items areuploaded to electronic devices 102-1 and 102-s before the electronicdevices forward the media content items to media content server 104.

In some embodiments, electronic device 102-1 communicates directly withelectronic device 102-s (e.g., as illustrated by the dotted-line arrow),or any other electronic device 102. As illustrated in FIG. 1A,electronic device 102-1 is able to communicate directly (e.g., through awired connection and/or through a short-range wireless signal, such asthose associated with personal-area-network (e.g., BLUETOOTH/BLE)communication technologies, radio-frequency-based near-fieldcommunication technologies, infrared communication technologies, etc.)with electronic device 102-s. In some embodiments, electronic device102-1 communicates with electronic device 102-s through network(s) 112.In some embodiments, electronic device 102-1 uses the direct connectionwith electronic device 102-s to stream content (e.g., data for mediaitems) for playback on the electronic device 102-s.

In some embodiments, electronic device 102-1 and/or electronic device102-s include a media application 222 (FIG. 2) that allows a respectiveuser of the respective electronic device to upload (e.g., to mediacontent server 104), browse, request (e.g., for playback at theelectronic device 102), and/or present media content (e.g., controlplayback of music tracks, videos, etc.). In some embodiments, one ormore media content items are stored locally by an electronic device 102(e.g., in memory 212 of the electronic device 102, FIG. 2). In someembodiments, one or more media content items are received by anelectronic device 102 in a data stream (e.g., from the CDN 106 and/orfrom the media content server 104). In some embodiments, the electronicdevice(s) 102 are capable of receiving media content (e.g., from the CDN106) and presenting the received media content. For example, electronicdevice 102-1 may be a component of a network-connected audio/videosystem (e.g., a home entertainment system, a radio/alarm clock with adigital display, and/or an infotainment system of a vehicle). In someembodiments, the CDN 106 sends media content to the electronic device(s)102.

In some embodiments, the CDN 106 stores and provides media content(e.g., media content requested by the media application 222 ofelectronic device 102) to electronic device 102 via the network(s) 112.Content (also referred to herein as “media items,” “media contentitems,” and “content items”) is received, stored, and/or served by theCDN 106. In some embodiments, content includes audio (e.g., music,spoken word, podcasts, etc.), video (e.g., short-form videos, musicvideos, television shows, movies, clips, previews, etc.), text (e.g.,articles, blog posts, emails, etc.), image data (e.g., image files,photographs, drawings, renderings, etc.), games (e.g., 2- or3-dimensional graphics-based computer games, etc.), or any combinationof content types (e.g., web pages that include any combination of theforegoing types of content or other content not explicitly listed). Insome embodiments, content includes one or more audio media items (alsoreferred to herein as “audio items,” “tracks,” and/or “audio tracks”).

In some embodiments, media content server 104 receives media requests(e.g., commands) from electronic devices 102. In some embodiments, mediacontent server 104 provides media content items to electronic devices102-s (e.g., users) of the media-providing service. In some embodiments,media content server 104 and/or CDN 106 stores one or more playlists(e.g., information indicating a set of media content items). Forexample, a playlist is a set of media content items defined by a userand/or defined by an editor associated with a media-providing service.The description of the media content server 104 as a “server” isintended as a functional description of the devices, systems, processorcores, and/or other components that provide the functionality attributedto the media content server 104. It will be understood that the mediacontent server 104 may be a single server computer, or may be multipleserver computers. Moreover, the media content server 104 may be coupledto CDN 106 and/or other servers and/or server systems, or other devices,such as other client devices, databases, content delivery networks(e.g., peer-to-peer networks), network caches, and the like. In someembodiments, the media content server 104 is implemented by multiplecomputing devices working together to perform the actions of a serversystem (e.g., cloud computing).

FIG. 1B illustrates providing a media content item as a response to auser request for information, in accordance with some embodiments. Anelectronic device 102 that is in communication with media content server104 receives (step 1) a user request 122 for information, “what is thelargest mammal in the world?” The electronic device 102 is anyelectronic device that can receive user inputs. For example, electronicdevice 102 may be a desktop computer, a laptop computer, a tablet, asmartphone, a smart speaker, or a smart wearable accessory (such as asmart watch). The user request 122 for information may be a text basedrequest, such as a request that is typed into an input interface of theelectronic device 102, or an audio based request, such as a naturallanguage utterance. The electronic device 102 may be in communicationwith the media content server 104 in a variety of ways. For example, theelectronic device 102 may include software (e.g., a program, anapplication) that allows the electronic device 102 to transmit andreceive data from the media content server 104. For example, if mediacontent server 104 is a server that provides podcasts, the electronicdevice 102 may include an application that can access and provideplayback of podcasts provided by the media content server 104.

The electronic device 102 transmits (step 2) the user request 122 to themedia content server 104. The media content server 104 selects a mediacontent item to be provided as a response to the user request 122 andtransmits (e.g., provides) (step 3) the selected media content item tothe electronic device 102. The electronic device 102 then provides (step4) at least a portion of the media content item to the user, “The bluewhale is the largest mammal in the world.” For example, the mediacontent server 104 determines that a podcast episode includesinformation that is relevant to the user request. The relevantinformation may be located in the middle of a podcast episode (e.g., theword “blue whale” is played at time 15 minutes and 22 seconds of thepodcast episode). (Note that, as used herein, the word “middle” isintended to denote a position that is neither at the beginning nor endof a media content item, sentences, etc., and is not intended to imply aposition that is exactly halfway between the beginning and end of themedia content item, sentence, etc.). In such cases, the media contentserver 104 provides the electronic device 102 with the media contentitem for playback as well as instructions to initiate playback of themedia content item at a time that is different from a default start time(e.g., at time 0 minutes and 0 seconds) of the media content item. Forexample, the media content server 104 may provide instructions toinitiate playback of the media content item at 15 minutes and 22 secondsof the podcast episode so that the electronic device 102 provides theresponse “blue whale . . . ” Alternatively, the media content server 104may provide instructions to initiate playback of the media content itemat 15 minutes and 21 seconds of the podcast episode so that theelectronic device 102 provides the response “The blue whale is thelargest . . . ” (e.g., a full sentence response). Note that, in additionto the example provided above (a request for a fact), the embodimentsdescribed herein are particularly well-suited to open-ended requests forinformation, such as “Tell me about the life of a Blue Whale.”

FIG. 2 is a block diagram illustrating an electronic device 102 (e.g.,electronic device 102-1 and/or electronic device 102-s, FIG. 1A), inaccordance with some embodiments. The electronic device 102 includes oneor more central processing units (CPU(s), i.e., processors or cores)202, one or more network (or other communications) interfaces 210,memory 212, and one or more communication buses 214 for interconnectingthese components. The communication buses 214 optionally includecircuitry (sometimes called a chipset) that interconnects and controlscommunications between system components.

In some embodiments, the electronic device 102 includes a user interface204, including output device(s) 206 and/or input device(s) 208. In someembodiments, the input devices 208 include a keyboard, mouse, or trackpad. Alternatively, or in addition, in some embodiments, the userinterface 204 includes a display device that includes a touch-sensitivesurface, in which case the display device is a touch-sensitive display.In electronic devices that have a touch-sensitive display, a physicalkeyboard is optional (e.g., a soft keyboard may be displayed whenkeyboard entry is needed). In some embodiments, the output devices(e.g., output device(s) 206) include an audio jack 250 (or otherphysical output connection port) for connecting to speakers, earphones,headphones, or other external listening devices and/or speaker 252(e.g., speakerphone device). Furthermore, some electronic devices 102use a microphone and voice recognition device to supplement or replacethe keyboard. Optionally, the electronic device 102 includes an audioinput device (e.g., a microphone 254) to capture audio (e.g., speechfrom a user).

Optionally, the electronic device 102 includes a location-detectiondevice 207, such as a global navigation satellite system (GNSS) (e.g.,GPS (global positioning system), GLONASS, Galileo, BeiDou) or othergeo-location receiver, and/or location-detection software fordetermining the location of the electronic device 102 (e.g., module forfinding a position of the electronic device 102 using trilateration ofmeasured signal strengths for nearby devices).

In some embodiments, the one or more network interfaces 210 includewireless and/or wired interfaces for receiving data from and/ortransmitting data to other electronic devices 102, a media contentserver 104, a CDN 106, and/or other devices or systems. In someembodiments, data communications are carried out using any of a varietyof custom or standard wireless protocols (e.g., NFC, RFID, IEEE802.15.4, Wi-Fi, ZigBee, 6LoWPAN, Thread, Z-Wave, Bluetooth, ISA100.11a,WirelessHART, MiWi, etc.). Furthermore, in some embodiments, datacommunications are carried out using any of a variety of custom orstandard wired protocols (e.g., USB, Firewire, Ethernet, etc.). Forexample, the one or more network interfaces 210 include a wirelessinterface 260 for enabling wireless data communications with otherelectronic devices 102, and/or or other wireless (e.g.,Bluetooth-compatible) devices (e.g., for streaming audio data to theelectronic device 102 of an automobile). Furthermore, in someembodiments, the wireless interface 260 (or a different communicationsinterface of the one or more network interfaces 210) enables datacommunications with other WLAN-compatible devices (e.g., electronicdevice(s) 102) and/or the media content server 104 (via the one or morenetwork(s) 112, FIG. 1A).

In some embodiments, electronic device 102 includes one or more sensorsincluding, but not limited to, accelerometers, gyroscopes, compasses,magnetometer, light sensors, near field communication transceivers,barometers, humidity sensors, temperature sensors, proximity sensors,range finders, and/or other sensors/devices for sensing and measuringvarious environmental conditions.

Memory 212 includes high-speed random-access memory, such as DRAM, SRAM,DDR RAM, or other random-access solid-state memory devices; and mayinclude non-volatile memory, such as one or more magnetic disk storagedevices, optical disk storage devices, flash memory devices, or othernon-volatile solid-state storage devices. Memory 212 may optionallyinclude one or more storage devices remotely located from the CPU(s)202. Memory 212, or alternately, the non-volatile memory solid-statestorage devices within memory 212, includes a non-transitorycomputer-readable storage medium. In some embodiments, memory 212 or thenon-transitory computer-readable storage medium of memory 212 stores thefollowing programs, modules, and data structures, or a subset orsuperset thereof:

-   -   an operating system 216 that includes procedures for handling        various basic system services and for performing        hardware-dependent tasks;    -   network communication module(s) 218 for connecting the        electronic device 102 to other computing devices (e.g., other        electronic device(s) 102, and/or media content server 104) via        the one or more network interface(s) 210 (wired or wireless)        connected to one or more network(s) 112;    -   a user interface module 220 that receives commands and/or inputs        from a user via the user interface 204 (e.g., from the input        devices 208) and provides outputs for playback and/or display on        the user interface 204 (e.g., the output devices 206);    -   a media application 222 (e.g., an application for accessing a        media-providing service of a media content provider associated        with media content server 104) for uploading, browsing,        receiving, processing, presenting, and/or requesting playback of        media (e.g., media items). In some embodiments, media        application 222 includes a media player, a streaming media        application, and/or any other appropriate application or        component of an application. In some embodiments, media        application 222 is used to monitor, store, and/or transmit        (e.g., to media content server 104) data associated with user        behavior. In some embodiments, media application 222 also        includes the following modules (or sets of instructions), or a        subset or superset thereof:        -   a media content selection module 224 for selecting one or            more media content items and/or sending, to the media            content server, an indication of the selected media content            item(s);        -   a media content browsing module 226 for providing controls            and/or user interfaces enabling a user to navigate, select            for playback, and otherwise control or interact with media            content, whether the media content is stored or played            locally or remotely;        -   a content items module 228 for storing media items for            playback at the electronic device; and        -   a question and answer module 230 (also referred to herein as            Q&A module 230) for receiving user requests for information,            processing the user requests, and providing media content            items in response to the user requests for information. In            some embodiments, rather than a question and answer module            230, the media application 222 simply includes a voice            command module that receives voice commands and passes them            to a server for natural language processing;    -   a listening history module 240 (sometimes referred to as a        playback history module) for storing (e.g., as a list for each        user) media content items that have been presented (e.g.,        streamed, provided, downloaded, played) to a respective user        and/or analyzing playback patterns for one or more users; and    -   other applications 242, such as applications for word        processing, calendaring, mapping, weather, stocks, time keeping,        virtual digital assistant, presenting, number crunching        (spreadsheets), drawing, instant messaging, e-mail, telephony,        video conferencing, photo management, video management, a        digital music player, a digital video player, 2D gaming, 3D        (e.g., virtual reality) gaming, electronic book reader, and/or        workout support.

FIG. 3 is a block diagram illustrating a media content server 104, inaccordance with some embodiments. The media content server 104 typicallyincludes one or more central processing units/cores (CPUs) 302, one ormore network interfaces 304, memory 306, and one or more communicationbuses 308 for interconnecting these components.

Memory 306 includes high-speed random access memory, such as DRAM, SRAM,DDR RAM, or other random access solid-state memory device, and mayinclude non-volatile memory, such as one or more magnetic disk storagedevices, optical disk storage devices, flash memory devices, or othernon-volatile solid-state storage devices. Memory 306 optionally includesone or more storage devices remotely located from one or more CPUs 302.Memory 306, or, alternatively, the non-volatile solid-state memorydevice(s) within memory 306, includes a non-transitory computer-readablestorage medium. In some embodiments, memory 306, or the non-transitorycomputer-readable storage medium of memory 306, stores the followingprograms, modules and data structures, or a subset or superset thereof:

-   -   an operating system 310 that includes procedures for handling        various basic system services and for performing        hardware-dependent tasks;    -   a network communication module 312 that is used for connecting        the media content server 104 to other computing devices via one        or more network interfaces 304 (wired or wireless) connected to        one or more networks 112;    -   one or more server application modules 314 for performing        various functions with respect to providing and managing a        content service, the server application modules 314 including,        but not limited to, one or more of:        -   a media content collections module 316 for storing and/or            creating (e.g., curating) media content collections, each            media content collection associated with one or more            descriptor terms (e.g., playlist titles and/or descriptions)            and/or including one or more media content items;        -   a content item collection module 318 for collecting and            storing media items for playback;        -   a question and answer module 320 (also referred to herein as            Q&A module 320) for receiving user requests for information,            processing the user requests, and providing media content            items in response to the user requests for information. The            Q&A module includes one or more trained computational models            321 (e.g., neural networks) that are trained to identify            transcripts and word positions in the transcript in response            to the user request for information, and, optionally, a            transcript to media content item mapping module 332 for            mapping transcripts to a corresponding media content item            and for mapping a word position in the transcript to a            corresponding time in the corresponding media content item,            including mapping a sentence start time when the word            position in the transcript and the corresponding time in the            corresponding media content item are not at a start of a            sentence (e.g., in the middle of a sentence or at an end of            a sentence); and        -   a media request processing module 323 for processing user            requests for information. The media request processing            module 323 includes a transcription module 324 for            transcribing user requests from audio to text, and a natural            language processing module 325 for converting the user            request into a string of text (e.g., in which stop words            have been removed from the user request) to be input into            the one or more trained computation models 321; and    -   one or more server data module(s) 330 for handling the storage        of and/or access to media items and/or metadata relating to the        media items; in some embodiments, the one or more server data        module(s) 330 include:        -   a media content database 332 for storing media content            items;        -   a transcript database 334 for storing transcripts            corresponding to media content items;        -   a listening history database 336 (also referred to as a            playback history database) for storing (e.g., as a list for            each user) media content items that have been consumed            (e.g., streamed, listened, viewed) by a respective user as            well as storing listener retention information for media            content items played by a respective user; and        -   a profile database 338 for storing user profiles (e.g., user            information) of users of the media-providing service.

In some embodiments, the media content server 104 includes web orHypertext Transfer Protocol (HTTP) servers, File Transfer Protocol (FTP)servers, as well as web pages and applications implemented using CommonGateway Interface (CGI) script, PHP Hyper-text Preprocessor (PHP),Active Server Pages (ASP), Hyper Text Markup Language (HTML), ExtensibleMarkup Language (XML), Java, JavaScript, Asynchronous JavaScript and XML(AJAX), XHP, Javelin, Wireless Universal Resource File (WURFL), and thelike.

Each of the above identified modules stored in memory 212 and 306corresponds to a set of instructions for performing a function describedherein. The above identified modules or programs (i.e., sets ofinstructions) need not be implemented as separate software programs,procedures, or modules, and thus various subsets of these modules may becombined or otherwise re-arranged in various embodiments. In someembodiments, memory 212 and 306 optionally store a subset or superset ofthe respective modules and data structures identified above.Furthermore, memory 212 and 306 optionally store additional modules anddata structures not described above. In some embodiments, memory 212stores one or more of the above identified modules described with regardto memory 306. In some embodiments, memory 306 stores one or more of theabove identified modules described with regard to memory 212.

Although FIG. 3 illustrates the media content server 104 in accordancewith some embodiments, FIG. 3 is intended more as a functionaldescription of the various features that may be present in one or moremedia content servers than as a structural schematic of the embodimentsdescribed herein. In practice, and as recognized by those of ordinaryskill in the art, items shown separately could be combined and someitems could be separated. For example, some items shown separately inFIG. 3 could be implemented on single servers and single items could beimplemented by one or more servers. In some embodiments, media contentdatabase 332 and/or metadata database are stored on devices (e.g., CDN106) that are accessed by media content server 104. The actual number ofservers used to implement the media content server 104, and how featuresare allocated among them, will vary from one implementation to anotherand, optionally, depends in part on the amount of data traffic that theserver system handles during peak usage periods as well as duringaverage usage periods.

FIG. 4A illustrates how media content items are selected for provisionin response to user requests for information, in accordance with someembodiments. An electronic device 102 that is in communication with amedia content server 104 (e.g., via a communications network) receives(step 1) a user request 122 from a user 120. In the example, the userrequest 122 asks, “What is the largest mammal in the world?” The userrequest 122 can be received by the electronic device as text, such as auser 120 typing the question into a text box or user interface ofelectronic device 102, or can be received as a natural languageutterance, such as a user speaking the request 122 aloud (e.g., a userutterance) and a microphone associated with the electronic device 102detecting the user utterance. The electronic device 102 transmits (step2) the user request 122 to the media content server 104.

In some embodiments, the media content server 104 includes a naturallanguage processor 402 that receives the user request 122 that istransmitted from the electronic device 102. The natural languageprocessor 402 includes one or more programs or instructions, such asnatural language processing module 325 shown in FIG. 3, to process theuser request 122. In such cases, the natural language processor 402provides a processed user request as an input to the trainedcomputational model(s) 321. In some embodiments, the user request 122 istransmitted from the electronic device 102 directly to the trainedcomputational model(s) 321.

The trained computational model(s) 321 also receives (step 3)transcripts from a transcript database 334 that stores a plurality oftranscripts. Each transcript of the plurality of transcripts isassociated with a media content item of a plurality of media contentitems stored in a media content item database 332. In some embodiments,the trained computational model(s) 321 receives transcripts from thetranscript database 334 prior to receiving the processed user requestfrom the natural language processor 402. In response to receiving theprocessed user request from the natural language processor 402, thetrained computational model(s) 321 identifies a transcript 422 of theplurality of transcripts, and a word position 424 of a word in thetranscript 422. The word in the transcript 422 is determined by thecomputational model(s) 321 to be relevant to the user request 122. Thetrained computational model(s) 321 provides outputs 412, including theidentified transcript 422 (e.g., an identifier of the media contentitem) and the identified word position 424 (e.g., a time within themedia content item). In some embodiments, the computational modeloutputs 412 also include a confidence score 426 that provides anindication of a confidence that the identified transcript 422 and theidentified word position 424 are relevant to the user request 122. Insome embodiments, the computational model outputs 412 also include theword that is determined to be relevant to the user request 122.

The trained computational model(s) 321 transmits (step 4) thecomputational model outputs 412 to a media content selector 404. Themedia content selector 404 includes one or more programs orinstructions, such as transcript to media content item mapping module322, for identifying a media content item that corresponds to theidentified transcript 422, identifying a time within the correspondingmedia content item that corresponds to the identified word position 424in the transcript 422, and in some cases, for identifying a timecorresponding to a start of a sentence that the identified wordassociated with the identified word position 424 is in. The mediacontent selector 404 identifies the media content item that correspondsto the identified transcript 422 (e.g., the transcript is atranscription of audio played in the corresponding media content item),and requests (step 5) the media content item from the media content itemdatabase 332. The media content item database transmits (step 6) therequested media content item to a media content item playback processor406. The media content item playback processor 406 transmits (step 7)the media content item to the electronic device 102 for playback by theelectronic device 102.

In addition to providing the media content item, the media content itemplayback processor 406 also provides a time (e.g., playback initiationtime) within the media content item to begin playback of the mediacontent item. In response to receiving the media content item and theplayback initiation time, the electronic device 102 provides the mediacontent item starting at the playback initiation time. In someembodiments, the playback initiation time is different from a defaultstart time (e.g., different from default start time of 0 minutes and 0seconds) of the media content item. In some embodiments, the playbackinitiation time is the same as the default start time of the mediacontent item (e.g., the playback initiation time is 0 minutes and 0seconds). In this example, the trained computational model(s) 321identified a transcript and a word or phrase in the transcript, “whale”or “blue whale” that is predicted, by the trained computational model(s)321, to be relevant to the user request 122 or the processed userrequest 122 input to the trained computational model(s) 321. The word“whale” may be, for example, the 274th word in the transcript. The mediacontent item that corresponds to the identified transcript istransmitted to the electronic device for playback, and the 274th word inthe transcript is determined to correspond to a time of 5 minutes and 3seconds in the media content item. However, it may be unsatisfactory tosimply provide the words “whale” or “blue whale” to the user as aresponse to the user request 122. Thus, the media content item playbackprocessor 406 may identify a time within the media content item thatcorresponds to the start of the sentence that contains the identifiedword “whale” or the words “blue whale.” In this, example, the mediacontent item starts playing the start of the sentence at a time of 5minutes and 2 seconds. Thus, the media content item playback processortransmits the media content item and the playback initiation time of 5minutes and 2 seconds to the electronic device 102 and the electronicdevice 102 begins play back of the media content item starting at timeof 5 minutes and 2 seconds, “The blue whale is the largest mammal in theworld.”

The electronic device 102 may continue playback of the media contentitem until the end of the media content item or until the user providesa command (e.g., verbal command or gesture command via a user interfaceof the electronic device) to cease or pause playback of the mediacontent item.

Note that the embodiments described herein are particularly well-suitedto open-ended requests for information, such as “Tell me about the lifeof a Blue Whale.” In this manner, the embodiments described hereinpromote a “conversational” feel in which users can ask questions and getnarrative answers (e.g., from podcasts), almost as if the user wereasking the questions of the experts directly.

FIG. 4B illustrates processing user requests 122 for information, inaccordance with some embodiments. The user request 122 includes a stringof words, in this example, “what is the largest mammal in the world.” Insome embodiments, the user request 122 (e.g., the string of words in theuser request 122) is used as an input to the trained computationalmodel(s) 321 without any processing. In some embodiments, the userrequest 122 is transmitted to a natural language processor 402 to beprocessed prior to transmitting the user request to the trainedcomputational model(s) 321. In such cases, the natural languageprocessor 402 processes (step 2A) the user request 122, such as byidentifying important words or phrases within the user request 122, orby masking or removing (e.g., filtering out) unnecessary words or fillerwords, such as “the” and “a.” Processing of the user request 122 can beperformed on either text inputs or utterances. When the user request 122is an utterance, the natural language processor 402 may also transcribethe user request 122 into text prior to processing the user request. Theprocessed user request 401 is transmitted (step 2B) to the trainedcomputational model(s) 321.

FIG. 4C illustrates processing transcripts for provision to trainedcomputational model(s) 321, in accordance with some embodiments. Thetrained computational model(s) 321 receive a plurality of transcripts442 from the transcript database 334. Each transcript in the pluralityof transcripts 442 corresponds to a media content item 432 that isstored in the media content item database 332. For example, transcript442-1 corresponds to (e.g., is a transcription of audio content in) themedia content item 432-1, and transcript 442-n corresponds to (e.g., isa transcription of audio content in) the media content item 432-n. Insome embodiments, the plurality of media content items 432 includesaudio files for a variety of media types, such as podcasts, audiobooks,and news reports. In some embodiments, the plurality of media contentitems 432 consists of a single type of media content (e.g., all mediacontent items are podcasts). In some embodiments, the plurality of mediacontent items 432 consists of podcasts. For example, if the mediacontent item 432-1 is a podcast episode, then transcript 442-1 is atranscript of the media content item 432-1 (e.g., is a transcription ofthe podcast episode).

In some embodiments, each transcript in the plurality of transcripts 442is processed prior to being provided (e.g., being transmitted) to thetrained computational model(s) 321. Processing a transcript includesidentifying the position of at least a portion of words within thetranscript (e.g., “special” is the 20th word in transcript 442-n) andidentifying the start of each sentence within the transcript. In someembodiments, the position of each word in the transcript is identified.The black dots shown in FIG. 4C represent a marker indicating a start ofa sentence. For example, dot 424-1 signifies the start of the sentence,“Welcome to the podcast . . . ” and dot 424-5 represents the start ofthe sentence, “Another fun fact . . . ” Similarly, each media contentitem in the plurality of media content items 432 is also processed suchthat a word or start of a sentence in the transcript can be mapped to aspecific time within the media content item. For example, processing ofthe transcripts and the media content items correlate the start of thesentence “Another fun fact . . . ,” represented by dot 424-5, intranscript 442-n to a specific time (e.g., 2 minutes and 17 seconds) inmedia content item 432-n. The trained computational model(s) 321receives (step 3) the processed transcripts. In some embodiments, thetrained computational model(s) 321 receives the processed transcriptsprior to receiving a user request 122 or a processed user request 401.

FIG. 5A illustrates training the computational model, in accordance withsome embodiments. The trained computational model(s) 321 are trainedusing training question and answer data 510 (also referred to herein astraining Q&A data 510). The training Q&A data 510 includes a pluralityof training text data 510 (e.g., training text data 510-1 to 510-m),each of which includes a question and an answer pair. In someembodiments, the answer in the question and answer pair is a passage orsegment from a body of training text data 511 (e.g., training text data511-1 to 511-p, a paragraph in an article). Thus, training text database520 includes the training Q&A data 510 (e.g., the question and answerpair) as well as training text data 511 (e.g., articles) from which theanswers in the training Q&A data 510 are derived. For example, trainingQ&A data 510-1 includes the question, “Which country won the Gold Medalat the 2018 Olympics for women's curling?” and the answer, “At the 2018Olympics in Pyeongchang, Sweden came in first, South Korea came in aclose second, and Japan took the Bronze medal home in the women'scurling event.” The training Q&A data 510 and the training text data 511from which the answer from the training Q&A data 510 can be found (e.g.,the article that the answer can be found in) are provided to acomputational model in-training 521 as inputs for training thecomputational model in-training 521. For example, the training textdatabase 520 stores the training Q&A data 510 and the training text data511, and may be a preexisting database, such as “The Stanford QuestionAnswering Dataset” (also known as SQuAD), which includes questions fromcrowd workers on a set of Wikipedia articles, and answers to thequestions that are a segment of text or a passage from an article of theset of Wikipedia articles.

FIG. 5B illustrates outputs from a computational model during testingand training, in accordance with some embodiments. During training ofthe computational model in-training 521, information stored in thetraining text database 520, including the plurality of training Q&A data510 and the training text data 511 (e.g., articles) from which theanswers in the training Q&A data 510 are extracted (e.g., derived), areprovided to the computational model in-training 521. The computationalmodel in-training 521 receives the training Q&A data 510 and thetraining text data 511 (e.g., articles) as inputs in order to train themodel to predict which words in a body of text provide a relevantresponse to a question. Thus, during training and testing of thecomputational model in-training 521, the computational model in-training521 receives, as inputs, testing data 512 (e.g., testing data 512-1 to512-q) that include a question and answer pair where one or more wordsin the answer is masked. The computational model in-training 521provides one or more predicted words for each masked word in the testingdata 512 as computation model outputs 530. For example, one or morewords in the answer of the testing data 512-1 are masked so that theanswer in the testing data 512-1 reads, “Today, there are [mask]countries in the world. South Sudan is the most recent country to beadded, it became an independent state on Jul. 9, 2011. There are alsosome dependent areas and several disputed territories. For example, . .. ” In this example, the computational model in-training 521 outputs“195” as the predicted word corresponding to the masked word which iscorrect (e.g., the masked word in the answer of testing data 512-1 is“195”). In some cases, in addition to outputting the predicted word(s),the computational model in-training 521 may also be trained to outputthe word position(s) of the predicted word(s) and/or a confidence scoreassociated with each predicted word. Once training of the computationalmodel in-training 521 is complete, the trained computational model 321can be used to identify (e.g., predict, provide) a transcript and a wordposition of a word or phrase in the identified transcript that isdetermined to be relevant to the user request (as shown in FIG. 4A).

In some embodiments, the plurality of testing data 512 are differentfrom (e.g., distinct from, does not include, is non-overlapping with)the plurality of training Q&A data 510. For example, the plurality oftesting data 512 includes a first set of question and answer pairs andthe plurality of training Q&A data 510 includes a second set of questionand answer pairs such that a question and answer pair of the first setof question and answer pairs is not included in the second set ofquestion and answer pairs and vice versa. In some embodiments, theplurality of testing data 512 include at least one question and answerpair that is different from (e.g., distinct from, does not include, isnon-overlapping with) the plurality of training Q&A data 510. Forexample, the testing data 512 may include one or more questions that areincluded in the plurality of training Q&A data 510 as well as additionalquestions that are not included in the plurality of training Q&A data510.

Each of the training Q&A data 510, the training text data 511, and thetesting data 512 are different from (e.g., distinct from, not including,does not comprise) the plurality of transcripts 442 provided to thetrained computational model(s) 321 when using the trained computationalmodel(s) 321 in providing media content items in response to userrequests 122. Thus, a computational model (such as trained computationalmodel(s) 321) that is trained using data and information that isdifferent from the plurality of transcripts 442 is able to use theplurality of transcripts 442 as sources for providing answers to userrequests 122 for information (e.g., user questions, user inquiries) evenif the trained computational model(s) 321 have not been trained usingany data from the plurality of transcripts 442.

FIGS. 6A-6C are flow diagrams illustrating a method 600 of providingplayback of media content items in response to user requests forinformation, in accordance with some embodiments. Method 600 may beperformed (602) at an electronic device (e.g., media content server 104)having one or more processors and memory storing instructions forexecution by the one or more processors. In some embodiments, the method600 is performed by executing instructions stored in the memory (e.g.,memory 306, FIG. 3) of the electronic device. In performing the method600, the electronic device (e.g., media content server 104) retrieves(610) a plurality of transcripts 442 from a database (e.g., transcriptdatabase 334). Each transcript in the plurality of transcripts 442corresponds to audio from a media content item of a plurality of mediacontent items 432 that are provided by a media providing service (e.g.,stored in a media content item database 332 associated with a mediaproviding service). The electronic device (e.g., media content server104) applies (620) each transcript of the plurality of transcripts 442to a trained computational model 321, and receives (630) a user request122 for information regarding a topic. The user request 122 includes astring of words. In response to the user request (640), the electronicdevice (e.g., media content server 104) identifies (644), by applyingthe string of words to the trained computational model 321, a transcript422 (from the plurality of transcripts 442 in the transcript database334) that is relevant to the topic, and a word position 424 within thetranscript 422 that is relevant to the topic. The electronic device(e.g., media content server 104) also provides (645) at least a portionof a media content item corresponding to the identified transcript 422,beginning at a starting position (e.g., playback initiation time) thatis based on the position within the identified transcript 422 that isrelevant to the topic.

In some embodiments, the user request for information is an open-endedrequest for information (e.g., a request having no widely-agreed uponfactual answer). To that end, in some embodiments, the user request forinformation is a request for a perspective or opinion.

In some embodiments, for each transcript of the plurality of transcripts442, the electronic device (e.g., media content server 104) identifies(612) a start of each sentence in the transcript (see dots 424-1 and424-5 in FIG. 4C).

In some embodiments, the trained computational model is a trained neuralnetwork. In some embodiments, the neural network is a BidirectionalEncoder Representations from Transformers (BERT) neural network, or aBERT-style neural network (e.g., a neural network based on the BERTarchitecture).

In some embodiments, the trained computational model 321 is trained(621), using a training set of training questions and answers (e.g.,training Q&A data 512), to provide a word position 424 within a knowntext source (e.g., a transcript of the plurality of transcripts 442) inresponse to receiving a user request 122 for information. The trainingset of questions and answers (e.g., training Q&A data 512) is distinctand separate from the plurality of transcripts 442.

In some embodiments, the string of words and the plurality oftranscripts 442 are provided (622) to an input layer of the trainedcomputational model 321 (e.g., the transcripts are pre-processed by thecomputational model in order to reduce the processing time in responseto a user request). In some embodiments, the string of words and theplurality of transcripts 422 are simultaneously provided (623) to thetrained computational model 321. Regardless of whether the string ofwords and the plurality of transcripts are provided to the computationalmodel simultaneously or at different times, in some embodiments, boththe string of words (e.g., the user request) and the transcripts areprovided to the same input layer of the same trained computationalmodel. In some embodiments, the inputs to the input layer are tagged toindicate to the computational model whether an input is string of words(e.g., a user request) or a transcript (e.g., containing a potentialanswer to the user request).

In some embodiments, the plurality of transcripts 442 are provided (624)to the trained computational model 321 prior to receiving the userrequest 122.

In some embodiments, an identifier of the transcript 422 relevant to thetopic and an identifier of the position 424 within the transcript 422relevant to the topic are output by the trained computational model 321(e.g., identified directly by an output layer of the trained computationmodel). In some embodiments, because the identifier of the transcript422 and the identifier of the position 424 are output directly by thetrained computational model 321, such embodiments do not require, forexample, generating separate results (e.g., embeddings) for thequestions and potential answers, and comparing the separate results.

In some embodiments, the user request is a natural language utterance.The method 600 further includes, generating (632), by the electronicdevice (e.g., media content server 104), the string of words based onthe natural language utterance.

In some embodiments, the electronic device (e.g., media content server104) identifies (641) a subset of the plurality of transcripts 442 thatare relevant to the topic based at least in part on metadata of mediacontent items that correspond to the subset of the plurality oftranscripts 442. The identified transcript 422 is identified from thesubset of the plurality of transcripts 442.

In some embodiments, the electronic device (e.g., media content server104) receives (642), from the trained computational model 321, aplurality of confidence scores 426. Each of the plurality of confidencescores 426 is associated with a transcript 422 that is identified to berelevant to the topic.

In some embodiments, the electronic device (e.g., media content server104) selects (643) the identified transcript 422 based at least in parton the plurality of confidence scores 426.

In some embodiments, the identified position 424 within the identifiedtranscript 422 that is relevant to the topic corresponds (646) to aposition 424 of a word within the identified transcript 422 that isrelevant to the topic.

In some embodiments, the identified position 424 of the word within theidentified transcript 422 that is relevant to the topic is located in amiddle of a sentence. The electronic device (e.g., media content server104) provides instructions for the electronic device 102 to initiate(647) playback of the media content item corresponding to the identifiedtranscript 422 at a start of the sentence.

In some embodiments, the plurality of media content items 432 comprises(648) spoken word media content items. For example, the plurality ofmedia content items 432 may comprise podcast episodes.

Although FIGS. 6A-6C illustrate a number of logical stages in aparticular order, stages which are not order dependent may be reorderedand other stages may be combined or broken out. Some reordering or othergroupings not specifically mentioned will be apparent to those ofordinary skill in the art, so the ordering and groupings presentedherein are not exhaustive. Moreover, it should be recognized that thestages could be implemented in hardware, firmware, software, or anycombination thereof.

The foregoing description, for purpose of explanation, has beendescribed with reference to specific embodiments. However, theillustrative discussions above are not intended to be exhaustive or tolimit the embodiments to the precise forms disclosed. Many modificationsand variations are possible in view of the above teachings. Theembodiments were chosen and described in order to best explain theprinciples and their practical applications, to thereby enable othersskilled in the art to best utilize the embodiments and variousembodiments with various modifications as are suited to the particularuse contemplated.

What is claimed is:
 1. A method, comprising: retrieving, from adatabase, a plurality of transcripts, each transcript in the pluralityof transcripts corresponding to audio from a media content item of aplurality of media content items that are provided by a media providingservice; applying each transcript of the plurality of transcripts to atrained computational model; receiving a user request for informationregarding a topic, wherein the user request includes a string of words;and in response to the user request: identifying, by applying the stringof words to the trained computational model: a transcript from thedatabase that is relevant to the topic; a position within the transcriptthat is relevant to the topic; and providing, by the media providingservice, at least a portion of a media content item corresponding to theidentified transcript, beginning at a starting position that is based onthe position within the identified transcript that is relevant to thetopic.
 2. The method of claim 1, wherein: the identified position withinthe identified transcript that is relevant to the topic corresponds to aposition of a word within the identified transcript that is relevant tothe topic.
 3. The method of claim 2, wherein: the identified position ofthe word within the identified transcript that is relevant to the topicis located in a middle of a sentence; and providing the at least aportion of the media content item corresponding to the identifiedtranscript includes initiating playback of the media content itemcorresponding to the identified transcript at a start of the sentence.4. The method of claim 1, wherein: the trained computational model istrained, using a training set of questions and answers, to provide aword position within a known text source in response to receiving a userrequest for information; and the training set of questions and answersis distinct and separate from the plurality of transcripts.
 5. Themethod of claim 1, further comprising: prior to identifying thetranscript and the position within the transcript, identifying a subsetof the plurality of transcripts that are relevant to the topic based atleast in part on metadata of media content items that correspond to thesubset of the plurality of transcripts, wherein the identifiedtranscript is identified from the subset of the plurality oftranscripts.
 6. The method of claim 1, wherein the plurality of mediacontent items comprises spoken word media content items.
 7. The methodof claim 1, wherein the string of words and the plurality of transcriptsare provided to an input layer of the trained computational model. 8.The method of claim 1, wherein the string of words and the plurality oftranscripts are simultaneously provided to the trained computationalmodel.
 9. The method of claim 1, wherein the plurality of transcriptsare provided to the trained computational model prior to receiving theuser request.
 10. The method of claim 1, wherein an identifier of thetranscript relevant to the topic and an identifier of the positionwithin the transcript relevant to the topic are output by the trainedcomputational model.
 11. The method of claim 1, further comprising:receiving, from the trained computational model, a confidence scoreassociated with the identified position within the identified transcriptthat is relevant to the topic, wherein the identified transcript isidentified using the confidence score.
 12. The method of claim 1,further comprising: receiving, from the trained computational model, aplurality of confidence scores, wherein each of the plurality ofconfidence scores is associated with a transcript that is identified tobe relevant to the topic; and selecting, the identified transcript basedat least in part on the plurality of confidence scores.
 13. The methodof claim 1, wherein the user request is a natural language utterance,the method further comprising: generating the string of words based onthe natural language utterance.
 14. The method of claim 1, furthercomprising: prior to receiving the user request and for each transcriptof the plurality of transcripts, identifying a start of each sentence inthe transcript.
 15. An electronic device, comprising: one or moreprocessors; and memory storing one or more programs, the one or moreprograms including instructions for: retrieving, from a database, aplurality of transcripts, each transcript in the plurality oftranscripts corresponding to audio from a media content item of aplurality of media content items that are provided by a media providingservice; applying each transcript of the plurality of transcripts to atrained computational model; receiving a user request for informationregarding a topic, wherein the user request includes a string of words;and in response to the user request: identifying, by applying the stringof words to the trained computational model: a transcript from thedatabase that is relevant to the topic; a position within the transcriptthat is relevant to the topic; and providing, by the media providingservice, at least a portion of a media content item corresponding to theidentified transcript, beginning at a starting position that is based onthe position within the identified transcript that is relevant to thetopic.
 16. A non-transitory computer-readable storage medium storing oneor more programs, the one or more programs including instructions that,when executed by an electronic device with one or more processors, causethe electronic device to: retrieve, from a database, a plurality oftranscripts, each transcript in the plurality of transcriptscorresponding to audio from a media content item of a plurality of mediacontent items that are provided by a media providing service; apply eachtranscript of the plurality of transcripts to a trained computationalmodel; receive a user request for information regarding a topic, whereinthe user request includes a string of words; and in response to the userrequest: identify, by applying the string of words to the trainedcomputational model: a transcript from the database that is relevant tothe topic; a position within the transcript that is relevant to thetopic; and provide, by the media providing service, at least a portionof a media content item corresponding to the identified transcript,beginning at a starting position that is based on the position withinthe identified transcript that is relevant to the topic.